RADAR AND ATOMIC WEAPONS IN WORLD WAR II

TECHNOLOGICAL INNOVATION DURING PROTRACTED WAR: RADAR AND ATOMIC WEAPONS IN WORLD WAR II

(b) (7)(C)

April 2015

Prepared for the Director, Net Assessment Office of the Secretary of Defense

Contract HQ0034--10-D-0007-0005

TABLE OF CONTENTS

Executive Summary ...............................................................................................................................ii Introduction .......................................................................................................................................... 1 Radar in World War II ......................................................................................................................... 2

Great Britain ............................................................................................................................. 3 Germany .................................................................................................................................. 12 United States...........................................................................................................................17 Japan ........................................................................................................................................ 24 Atomic Weapons in World War II ....................................................................................................31 United States and Great Britain ............................................................................................ 31 Germany .................................................................................................................................. 38 Japan ........................................................................................................................................ 40 Insights on Technological Innovation During Protracted Conflict ..................................................45

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EXECUTIVE SUMMARY

Over the last two decades, the conventional conflicts in which the U.S. military has participated have been brief and highly successful. Major combat operations in the First Gulf War lasted six weeks and the ground campaign ended after just 100 hours. In the Second Gulf War, Baghdad fell less than a month after Allied forces entered Iraq. Because the wars were so brief, the US military employed the same weapons systems at the end of the conflicts as were available at the beginning. Subsequent wargaming has continued to focus on relatively short conflicts in which changes in military technology play, at most, only limited roles.

The U.S. military's rapid success in recent conventional conflicts may have contributed to a focus on peacetime innovation in the extant literature on military and technological innovation. There is a significant body of work, for example, on military innovation during the interwar era. As a result, historians have concentrated on identifying the sources of peacetime innovation and paid relatively little attention to how to maintain or accelerate innovation during wartime or to the effects of wartime innovation on the conduct of military operations.

Future wars between countries possessing technologies such as reconnaissance-strike complexes, however, may be more protracted than recent conflicts as adversaries struggle to project power and rely more heavily on long-range systems. The Soviets, for one, believed that the Military-Technical Revolution would result in protracted conventional conflicts. Numerous players in Defense Department wargames looking at Asian contingencies set in 2035 have indicated that such conflicts could last a long time as combatants seek to achieve their goals over great distances while managing escalation.

During such protracted conflicts, new technologies may be introduced, resulting in new military capabilities. Radar research and development was underway simultaneously in Great Britain, Germany, the United States, and Japan by the early 1930s. The Germans led in terms of technical innovation but the British were more successful in the operational development of radar by the outbreak of war in 1939. Once the war began, Anglo-American cooperation on radar development accelerated and the Germans fell behind, never to catch up. The Japanese military demonstrated little interest in radar before the outbreak of war in Europe and thus lagged far behind. Similarly, Germany led in atomic research during the 1930s. In 1938, German scientists were the first to successfully split a uranium atom by bombarding it with neutrons. After the United States entered World War II, however, President Roosevelt gave the development of nuclear weapons top priority. German interest in the development of nuclear weapons never fully materialized.

The evidence from the development of radar and atomic weaponry before and during World War II suggests several potential insights regarding technological innovation during protracted conflict.

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Large-scale efforts to develop new technologies benefit from centralized, coordinated direction.

The British effort to develop radar, for example, benefited greatly from the direction and funding provided from the Tizard Committee. The German effort, in contrast, was plagued by too many competing agencies and research programs that did not communicate well with one another. The United States lagged behind both Germany and Great Britain in radar research and development during the interwar era due, in part, to the lack any central direction to provide focus for its compartmentalized research effort. The creation of special agencies, such as the NDRC and the OSRD, at the highest levels of government to coordinate scientific research for the military and of laboratories such as the Rad Lab at MIT to perform the research provided a tremendous boost to the American radar program. Japan lacked a centralized effort to address the critical technical problems in the development of radar for virtually the entire war. The Japanese Army and the Japanese Navy conducted their own independent radar research programs. The research efforts were not coordinated within each service, much less between the two services.

The history of atomic research in the United States also demonstrates the importance of centralized direction for technological development. Participants in the Manhattan Project have commented that the United States could never have built the atomic bomb in peacetime given traditional congressional restrictions on federal spending. The outbreak of World War II in Europe and the growing prospect of U.S. entry into the war provided the impetus for the creation of the NDRC and the OSRD. Without the direction provided by those institutions, the development of the bomb may not have been possible, certainly not in as timely a manner.

In contrast, Japan lacked any centralized office to coordinate all its atomic research. Army and Navy research was conducted separately with no real coordination. There was no single military leader in charge in Japan like Groves was in the United States. Technical officers in the military initiated the projects and sought the assistance of civilian scientists when uniformed technicians proved incapable.

In order for such research and development efforts to be successful, they must also have the support of senior leadership.

In Great Britain, Dowding and Tizard provided important direction and significant funding for the development of radar from the start. Churchill was also actively involved in the contribution of science to the war effort, although his assistance was not always beneficial. In Germany, Hitler and G?ring were anti-intellectual and scientifically illiterate. Other high-ranking military officers were not much better.

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Strong support from senior leaders was also important in the development of atomic weaponry. Roosevelt and Churchill consistently backed development of the atomic bomb, even as they sometimes doubted its feasibility. Hitler, on the other hand, dismissed the German bomb effort and refused to provide it with significant support. The Japanese atomic weapon program also lacked the high-level support necessary to overcome the academic divisions, interservice rivalry, and resource shortages that troubled the program.

Allies can also play an important role in the research and development of new technologies during a protracted conflict.

The British provided valuable radar technology and useful operational experience that facilitated the American development of radar. The British also made an important contribution to the development of the atomic bomb, even if atomic cooperation between Great Britain and the United States did not always proceed smoothly. In contrast, the Germans and the Japanese derived almost no technological benefits from their alliance.

The development of collaborative relationships among the military, academia, private industry contributed significantly to the successful development of new technologies.

Effective collaboration between scientists and military officers was key to American and British success in the development of radar. The British military cooperated closely with scientists U.S. Navy scientists worked closely with the Fleet and private firms to develop radar. Meanwhile, the signals section in the Luftwaffe, which had primary responsibility for conducting research on radar and radio, had little outside contact with civilian researchers.

Similarly, the American atomic research effort depended on extensive collaboration among the military, academia, and private industry. The Army Corps of Engineers, in conjunction with private industry, built the vast facilities necessary to develop the bomb. The Army-directed laboratories at several universities, staffed largely by scientists drawn from academia, conducted much of the research for the bomb project. As noted earlier, the research, assembly, and manufacture facility at Los Alamos was the epitome of a collaborative environment. The work at Los Alamos required intensive collaboration between scientists and engineers.

Applied research and frequent experimentation is more effective than pure research.

British and American researchers would improvise in the laboratory and develop workable devices in advance of a theoretical understanding. Once the British and the Americans developed a new technology, they experimented extensively to understand how to employ it most effectively. In

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